* Icon-O-Matic and Cortex are dependent on the feature.
* remove expat lib from the build and from the tree.
* expat package is added to regular builds.
* this is a mandatory package.
* removed related commands from the minimum image definition.
* removed related commands from the Haiku package PROVIDES.
* the su command is deprecated in 8.22. Use the 8.4 in-tree version.
* the packages contain and provide the df command, to be removed.
* Instead of faking libstdc++.so from libstdc++.a, use libstdc++.so
from the gcc_syslibs build feature for everything except x86_gcc2.
* Use libgcc_s.so from the gcc_syslibs build feature for everything but
x86_gcc2 (which still carries libgcc as part of libroot.so).
* Drop filtering of libgcc objects for libroot, as that is no longer
necessary since we're only using libgcc-as-single-object for libroot
with x86_gcc2, where the filtered object file doesn't exist. Should
the objects that used to be filtered cause any problems as part of
libgcc_s.so, we can always filter them as part of the gcc build.
* Use libsupc++.so from the gcc_syslibs build feature for everything but
x86_gcc2.
* Adjust all Jamfiles accordingly.
* Deactivate building of faked libstdc++.so for non-x86-gcc2. For
x86_gcc2, we still build libstdc++.so from the sources in the Haiku
source tree as part of the Haiku build .
* Put gcc_syslibs package onto the image, when needed.
provided in the gcc_syslibs_devel build feature for building Haiku.
* Simplify declaration of c++ and gcc headers for the legacy compiler -
in the end we always use the ones living by our source tree anyway.
* Fix a couple of missing local declarations for jam variables, which
were necessary to avoid a build problem with strace. There are
probably more bugs like these hiding in our build system files, but
I'm saving the fix for those to the next commit.
* Add new gcc packages to the HaikuPorts (x86*-)repositories.
* Instead of separate variables, HAIKU_BUILD_TYPE is set to one of
'bootstrap', 'minimum' or 'regular'.
* Adjust uses of HAIKU_BOOTSTRAP_BUILD accordingly.
* Introduce a build feature per image type (i.e. minimum_image,
bootstrap_image and regular_image).
* Activate the build feature matching the active image type.
* Use the image build features to group the default packages.
* Move actual definitions of respective image contents to files
underneath build/jam/images/definitions (minimum, bootstrap, regular).
* HaikuImage now only includes the image definitions for the selected
build profile and adds the Haiku packages.
* Simplified topmost Jamfile to some extent.
* Move definition of DESKBAR_APPLICATIONS and DESKBAR_DESKTOP_APPLETS
from build/jam/packages/Haiku to the respective image definition file.
* Sort and reformat several lists to make them more readable.
* Add new build profile 'minimum', which defines a minimum set of
packages.
* Introduce HAIKU_BOOTSTRAP_SOURCES_PROFILE and let it default to
'@minimum-raw'. This can be overruled in UserBuildConfig, setting
it to '@release-raw' will cause all source packages required for a
full release to be put onto the bootstrap-image.
* Add new image HaikuImageMinimum, which is meant to define the minimum
useful Haiku image (yeah, I know that's vague).
* Add HAIKU_MINIMUM_BUILD, which indicates that HaikuImageMinimum should
be used (it would be better to merge this with HAIKU_BOOTSTRAP_BUILD
into something like HAIKU_BUILD_TYPE)
* Cleanup duplicate references to basic packages - those are now added
by the topmost Jamfile (no longer referenced by the build profiles).
* HaikuRepository rule: Create the repository config.
* HaikuImage: Add the repository config for the Haiku image. The
repository cache is not added, though (it would only be available, if
the repository had been built before).
Implements #10287. The Haiku repository is now available in Haiku by
default.
* As the OpenGL kit is assumed by most ports (and BeOS apps)
to "exist", lets make mesa_devel present by default until
post R1
* mesa_swrast ensures we always have the basic swrast renderer
To play with mesa_swpipe (gallium llvmpipe, gcc4) uninstall
mesa_swrast and install mesa_swpipe. (you can install both,
but it's first renderer found, first used atm)
* Add rule HaikuRepository to build a repository from a repository info
file and a list of package files. It calls a build_haiku_repository
script which does all the work.
* Add target <repository>haiku for building the Haiku package
repository.
It should be built via "jam -q @alpha-raw build <repository>haiku";
the build profile is only needed to activate all build features.
* find_directory() and hard-coded paths use /boot/system instead of
/boot/common.
* The build system creates the writable directories in /boot/system
instead of /boot/common.
* The build system no longer installs any packages in /boot/common.
* Introduce build variable HAIKU_IMAGE_ADDITIONAL_PACKAGES which can be
set to add additional packages to the image.
* Use HAIKU_IMAGE_ADDITIONAL_PACKAGES to support specifying a list of
additional packages via the build-package-list build profile action.
* Add htmldoc and texi2html when building the list of the packages for
which we need source packages when building the bootstrap Haiku image.
We don't want them on the regular image, but they are needed to build
some packages that are on it.
* All packaging architecture dependent variables do now have a
respective suffix and are set up for each configured packaging
architecture, save for the kernel and boot loader variables, which
are still only set up for the primary architecture.
For convenience TARGET_PACKAGING_ARCH, TARGET_ARCH, TARGET_LIBSUPC++,
and TARGET_LIBSTDC++ are set to the respective values for the primary
packaging architecture by default.
* Introduce a set of MultiArch* rules to help with building targets for
multiple packaging architectures. Generally the respective targets are
(additionally) gristed with the packaging architecture. For libraries
the additional grist is usually omitted for the primary architecture
(e.g. libroot.so and <x86>libroot.so for x86_gcc2/x86 hybrid), so that
Jamfiles for targets built only for the primary architecture don't
need to be changed.
* Add multi-arch build support for all targets needed for the stage 1
cross devel package as well as for libbe (untested).
* Don't handle the bootstrap case in the main Jamfile. Add all bootstrap
packages to the image in the profile definition. That's less
confusing, hopefully.
* Add the missing bootstrap packages (ncurses*, libtool_libltdl). The
would normally be added in build_haiku_image when the package
dependencies are resolved, but we don't do that for the bootstrap
image, since we intentionally leave some dependencies out (e.g. perl)
because they can be built.
Copy:
* packages: Haiku -> HaikuBootstrap
* images: HaikuImage -> HaikuImageBootstrap
... and remove some unncessary content.
Setting the jam variable HAIKU_BOOTSTRAP_BUILD enables using the
bootstrap files.
* Build libsolv and the dependency solver part of the package kit for
the build platform.
* Add build tool get_package_dependencies. Given a list of package files
and a list of repository files it determines the additional packages
that need to be retrieved from the repositories and prints their URLs.
* Add rules to work with external repositories in the build system
(build/jam/RepositoryRules):
- PackageRepository declares an external repository with all its
packages. The URL of the repository file isn't specified. It is
computed from a given base URL and the SHA256 hash of the list of
package files.
- GeneratedRepositoryPackageList generates a file containing the file
names of all packages in a repository.
- IsPackageAvailable returns whether a package is available in any
repository.
- PackageURL returns the URL for a package.
* Declare the HaikuPorts repository for x86_gcc2
(build/jam/repositories/HaikuPorts/x86_gcc2).
* Add rule AddHaikuImagePackages to add a package to the image and rule
IsHaikuImagePackageAdded to determine whether a package has been
added.
* OptionalPackages: Remove all entries that just downloaded and
installed an external package. AddHaikuImagePackages can be used
instead and is used in the remaining entries. Also move the remaining
optional package dependency declarations from
OptionalPackageDependencies here.
* ExtractBuildFeatureArchives: Instead of the URL parameter a package
name must be specified now. This allows to simplify BuildFeatures
significantly, since there's no dealing with URLs anymore. "if" out
the entries that aren't supported yet.
* build_haiku_image: For the packages installed in system and common
resolve their dependencies and download and install them as well.
Got rid of X86_ONLY and friends in HaikuImage, FloppyBootImage, etc.
Instead we use build feature specification annotated lists with
FFilterByBuildFeatures (either explicitly or implicitly where passing
the list directly to the image rules).
I just translated the variables to the respective annotatation in most
cases, though in some cases different annotation would be more correct
(e.g. for the OpenGL stuff).
Provides a simple framework for addressing #3798. The interested reader
may add the build features and add/adjust the annotations accordingly.
Added a temporary Haiku64Image file that gets included instead of
HaikuImage when building for x86_64, which I will add to as I port
stuff. Images currently only include the boot loader, kernel and
a bunch of add-ons.
Several build features (including a future patch for WebKit)
are enabled only if a respective optional package is added.
Prior to this, none of those build features could be activated
in a sub-jam process.
* Make the locale kit a part of libbe.
* Drop the LocaleBackend kludge used from within libbe (and from
other places, too) in order to access system catalog strings.
This is now done via gSystemCatalog, which is provided and initialized
by libbe.
* Drop all references to liblocale.so from all Jamfiles.
* Add legacy symlink liblocale.so in order to keep optional packages
that rely on it in a working state.
TODO: the documentation hasn't been updated.